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Title: Cold Climate Heat Pump using Tandem Vapor-Injection Compressors

Abstract

Conventional air-source heat pumps (ASHPs) experience rather poor performance in cold climate areas. The heating capacity and efficiency of con-ventional ASHPs decrease significantly as the outdoor temperature decreases. The major R&D challenges are to limit this ASHP heating capacity and efficiency degradation at low and extremely low ambient temperatures. Vapor injection (VI) compressors are able to provide better efficiency and larger capacity at low ambient temperatures. A prototype air-source cold climate heat pump (CCHP), using tandem vapor injection (VI) compressors and inter-stage flash tank, was developed. The CCHP has two identical VI compressors in parallel, which works with a two-stage indoor blower and two-stage thermostat. At moderately low ambient temperatures, only one compressor is called, and at extremely low ambient temperatures, both the compressors are used. The prototype was installed in Fairbanks, Alaska and underwent field testing for six months. The CCHP successfully operated down to -30°F (-35°C) and was able to meet the building heating load with good efficiency in a wide range of ambient temperatures. At -30°F (-35°C), the CCHP delivered 75% heat pump capacity, relative to the capacity at 47°F (8.3°C), and the heat pump COP was 1.8. This paper will introduce the CCHP development and fieldmore » testing results.« less

Authors:
ORCiD logo [1]; ORCiD logo [1]; ORCiD logo [1]; ORCiD logo [1]
  1. ORNL
Publication Date:
Research Org.:
Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
Sponsoring Org.:
USDOE Office of Energy Efficiency and Renewable Energy (EERE)
OSTI Identifier:
1468210
DOE Contract Number:  
AC05-00OR22725
Resource Type:
Conference
Resource Relation:
Conference: Cold Climate HVAC 2018 - Kiruna, , Sweden - 3/12/2018 4:00:00 AM-3/15/2018 4:00:00 AM
Country of Publication:
United States
Language:
English

Citation Formats

Shen, Bo, Abdelaziz, Omar, Baxter, Van D., and Vineyard, Edward Allan. Cold Climate Heat Pump using Tandem Vapor-Injection Compressors. United States: N. p., 2008. Web.
Shen, Bo, Abdelaziz, Omar, Baxter, Van D., & Vineyard, Edward Allan. Cold Climate Heat Pump using Tandem Vapor-Injection Compressors. United States.
Shen, Bo, Abdelaziz, Omar, Baxter, Van D., and Vineyard, Edward Allan. 2008. "Cold Climate Heat Pump using Tandem Vapor-Injection Compressors". United States.
@article{osti_1468210,
title = {Cold Climate Heat Pump using Tandem Vapor-Injection Compressors},
author = {Shen, Bo and Abdelaziz, Omar and Baxter, Van D. and Vineyard, Edward Allan},
abstractNote = {Conventional air-source heat pumps (ASHPs) experience rather poor performance in cold climate areas. The heating capacity and efficiency of con-ventional ASHPs decrease significantly as the outdoor temperature decreases. The major R&D challenges are to limit this ASHP heating capacity and efficiency degradation at low and extremely low ambient temperatures. Vapor injection (VI) compressors are able to provide better efficiency and larger capacity at low ambient temperatures. A prototype air-source cold climate heat pump (CCHP), using tandem vapor injection (VI) compressors and inter-stage flash tank, was developed. The CCHP has two identical VI compressors in parallel, which works with a two-stage indoor blower and two-stage thermostat. At moderately low ambient temperatures, only one compressor is called, and at extremely low ambient temperatures, both the compressors are used. The prototype was installed in Fairbanks, Alaska and underwent field testing for six months. The CCHP successfully operated down to -30°F (-35°C) and was able to meet the building heating load with good efficiency in a wide range of ambient temperatures. At -30°F (-35°C), the CCHP delivered 75% heat pump capacity, relative to the capacity at 47°F (8.3°C), and the heat pump COP was 1.8. This paper will introduce the CCHP development and field testing results.},
doi = {},
url = {https://www.osti.gov/biblio/1468210}, journal = {},
number = ,
volume = ,
place = {United States},
year = {Sat Mar 01 00:00:00 EST 2008},
month = {Sat Mar 01 00:00:00 EST 2008}
}

Conference:
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